/*
- * Copyright (C) 1995-2007 University of Karlsruhe. All right reserved.
+ * Copyright (C) 1995-2011 University of Karlsruhe. All right reserved.
*
* This file is part of libFirm.
*
* @brief Provides basic mathematical operations on values represented as strings.
* @date 2003
* @author Mathias Heil
- * @version $Id$
*/
+#include "config.h"
-#ifdef HAVE_CONFIG_H
-# include "config.h"
-#endif
-
-#ifdef HAVE_STDLIB_H
-# include <stdlib.h>
-#endif
-#ifdef HAVE_STRING_H
-# include <string.h> /* memset/memcmp */
-#endif
-#include <assert.h> /* assertions */
-#include <stdio.h> /* output for error messages */
-#include <limits.h> /* definition of LONG_MIN, used in sc_get_val_from_long */
+#include <stdlib.h>
+#include <string.h>
+#include <assert.h>
+#include <stdio.h>
+#include <limits.h>
#include "strcalc.h"
#include "xmalloc.h"
+#include "error.h"
/*
* local definitions and macros
*/
#define CLEAR_BUFFER(b) assert(b); memset(b, SC_0, calc_buffer_size)
+#define SHIFT(count) (SC_1 << (count))
#define _val(a) ((a)-SC_0)
#define _digit(a) ((a)+SC_0)
-#define _bitisset(digit, pos) (and_table[_val(digit)][_val(shift_table[pos])] != SC_0)
-
-#define fail_char(a, b, c, d) _fail_char((a), (b), (c), (d), __FILE__, __LINE__)
+#define _bitisset(digit, pos) (((digit) & SHIFT(pos)) != SC_0)
/* shortcut output for debugging */
# define sc_print_hex(a) sc_print((a), 0, SC_HEX, 0)
static const char max_digit[4] = { SC_0, SC_1, SC_3, SC_7 };
static const char min_digit[4] = { SC_F, SC_E, SC_C, SC_8 };
-static const char not_table[16] = { SC_F, SC_E, SC_D, SC_C, SC_B, SC_A, SC_9, SC_8,
- SC_7, SC_6, SC_5, SC_4, SC_3, SC_2, SC_1, SC_0 };
-
-static const char shift_table[4] = { SC_1, SC_2, SC_4, SC_8 };
-
-static const char and_table[16][16] = {
- { SC_0, SC_0, SC_0, SC_0, SC_0, SC_0, SC_0, SC_0,
- SC_0, SC_0, SC_0, SC_0, SC_0, SC_0, SC_0, SC_0 },
-
- { SC_0, SC_1, SC_0, SC_1, SC_0, SC_1, SC_0, SC_1,
- SC_0, SC_1, SC_0, SC_1, SC_0, SC_1, SC_0, SC_1 },
-
- { SC_0, SC_0, SC_2, SC_2, SC_0, SC_0, SC_2, SC_2,
- SC_0, SC_0, SC_2, SC_2, SC_0, SC_0, SC_2, SC_2 },
-
- { SC_0, SC_1, SC_2, SC_3, SC_0, SC_1, SC_2, SC_3,
- SC_0, SC_1, SC_2, SC_3, SC_0, SC_1, SC_2, SC_3 },
-
- { SC_0, SC_0, SC_0, SC_0, SC_4, SC_4, SC_4, SC_4,
- SC_0, SC_0, SC_0, SC_0, SC_4, SC_4, SC_4, SC_4 },
-
- { SC_0, SC_1, SC_0, SC_1, SC_4, SC_5, SC_4, SC_5,
- SC_0, SC_1, SC_0, SC_1, SC_4, SC_5, SC_4, SC_5 },
-
- { SC_0, SC_0, SC_2, SC_2, SC_4, SC_4, SC_6, SC_6,
- SC_0, SC_0, SC_2, SC_2, SC_4, SC_4, SC_6, SC_6 },
-
- { SC_0, SC_1, SC_2, SC_3, SC_4, SC_5, SC_6, SC_7,
- SC_0, SC_1, SC_2, SC_3, SC_4, SC_5, SC_6, SC_7 },
-
- { SC_0, SC_0, SC_0, SC_0, SC_0, SC_0, SC_0, SC_0,
- SC_8, SC_8, SC_8, SC_8, SC_8, SC_8, SC_8, SC_8 },
-
- { SC_0, SC_1, SC_0, SC_1, SC_0, SC_1, SC_0, SC_1,
- SC_8, SC_9, SC_8, SC_9, SC_8, SC_9, SC_8, SC_9 },
-
- { SC_0, SC_0, SC_2, SC_2, SC_0, SC_0, SC_2, SC_2,
- SC_8, SC_8, SC_A, SC_A, SC_8, SC_8, SC_A, SC_A },
-
- { SC_0, SC_1, SC_2, SC_3, SC_0, SC_1, SC_2, SC_3,
- SC_8, SC_9, SC_A, SC_B, SC_8, SC_9, SC_A, SC_B },
-
- { SC_0, SC_0, SC_0, SC_0, SC_4, SC_4, SC_4, SC_4,
- SC_8, SC_8, SC_8, SC_8, SC_C, SC_C, SC_C, SC_C },
-
- { SC_0, SC_1, SC_0, SC_1, SC_4, SC_5, SC_4, SC_5,
- SC_8, SC_9, SC_8, SC_9, SC_C, SC_D, SC_C, SC_D },
-
- { SC_0, SC_0, SC_2, SC_2, SC_4, SC_4, SC_6, SC_6,
- SC_8, SC_8, SC_A, SC_A, SC_C, SC_C, SC_E, SC_E },
-
- { SC_0, SC_1, SC_2, SC_3, SC_4, SC_5, SC_6, SC_7,
- SC_8, SC_9, SC_A, SC_B, SC_C, SC_D, SC_E, SC_F } };
-
-static const char or_table[16][16] = {
- { SC_0, SC_1, SC_2, SC_3, SC_4, SC_5, SC_6, SC_7,
- SC_8, SC_9, SC_A, SC_B, SC_C, SC_D, SC_E, SC_F },
-
- { SC_1, SC_1, SC_3, SC_3, SC_5, SC_5, SC_7, SC_7,
- SC_9, SC_9, SC_B, SC_B, SC_D, SC_D, SC_F, SC_F },
-
- { SC_2, SC_3, SC_2, SC_3, SC_6, SC_7, SC_6, SC_7,
- SC_A, SC_B, SC_A, SC_B, SC_E, SC_F, SC_E, SC_F },
-
- { SC_3, SC_3, SC_3, SC_3, SC_7, SC_7, SC_7, SC_7,
- SC_B, SC_B, SC_B, SC_B, SC_F, SC_F, SC_F, SC_F },
-
- { SC_4, SC_5, SC_6, SC_7, SC_4, SC_5, SC_6, SC_7,
- SC_C, SC_D, SC_E, SC_F, SC_C, SC_D, SC_E, SC_F },
-
- { SC_5, SC_5, SC_7, SC_7, SC_5, SC_5, SC_7, SC_7,
- SC_D, SC_D, SC_F, SC_F, SC_D, SC_D, SC_F, SC_F },
-
- { SC_6, SC_7, SC_6, SC_7, SC_6, SC_7, SC_6, SC_7,
- SC_E, SC_F, SC_E, SC_F, SC_E, SC_F, SC_E, SC_F },
-
- { SC_7, SC_7, SC_7, SC_7, SC_7, SC_7, SC_7, SC_7,
- SC_F, SC_F, SC_F, SC_F, SC_F, SC_F, SC_F, SC_F },
-
- { SC_8, SC_9, SC_A, SC_B, SC_C, SC_D, SC_E, SC_F,
- SC_8, SC_9, SC_A, SC_B, SC_C, SC_D, SC_E, SC_F },
-
- { SC_9, SC_9, SC_B, SC_B, SC_D, SC_D, SC_F, SC_F,
- SC_9, SC_9, SC_B, SC_B, SC_D, SC_D, SC_F, SC_F },
-
- { SC_A, SC_B, SC_A, SC_B, SC_E, SC_F, SC_E, SC_F,
- SC_A, SC_B, SC_A, SC_B, SC_E, SC_F, SC_E, SC_F },
-
- { SC_B, SC_B, SC_B, SC_B, SC_F, SC_F, SC_F, SC_F,
- SC_B, SC_B, SC_B, SC_B, SC_F, SC_F, SC_F, SC_F },
-
- { SC_C, SC_D, SC_E, SC_F, SC_C, SC_D, SC_E, SC_F,
- SC_C, SC_D, SC_E, SC_F, SC_C, SC_D, SC_E, SC_F },
-
- { SC_D, SC_D, SC_F, SC_F, SC_D, SC_D, SC_F, SC_F,
- SC_D, SC_D, SC_F, SC_F, SC_D, SC_D, SC_F, SC_F },
-
- { SC_E, SC_F, SC_E, SC_F, SC_E, SC_F, SC_E, SC_F,
- SC_E, SC_F, SC_E, SC_F, SC_E, SC_F, SC_E, SC_F },
-
- { SC_F, SC_F, SC_F, SC_F, SC_F, SC_F, SC_F, SC_F,
- SC_F, SC_F, SC_F, SC_F, SC_F, SC_F, SC_F, SC_F } };
-
-static char const xor_table[16][16] = {
- { SC_0, SC_1, SC_2, SC_3, SC_4, SC_5, SC_6, SC_7,
- SC_8, SC_9, SC_A, SC_B, SC_C, SC_D, SC_E, SC_F },
-
- { SC_1, SC_0, SC_3, SC_2, SC_5, SC_4, SC_7, SC_6,
- SC_9, SC_8, SC_B, SC_A, SC_D, SC_C, SC_F, SC_E },
-
- { SC_2, SC_3, SC_0, SC_1, SC_6, SC_7, SC_4, SC_5,
- SC_A, SC_B, SC_8, SC_9, SC_E, SC_F, SC_C, SC_D },
-
- { SC_3, SC_2, SC_1, SC_0, SC_7, SC_6, SC_5, SC_4,
- SC_B, SC_A, SC_9, SC_8, SC_F, SC_E, SC_D, SC_C },
-
- { SC_4, SC_5, SC_6, SC_7, SC_0, SC_1, SC_2, SC_3,
- SC_C, SC_D, SC_E, SC_F, SC_8, SC_9, SC_A, SC_B },
-
- { SC_5, SC_4, SC_7, SC_6, SC_1, SC_0, SC_3, SC_2,
- SC_D, SC_C, SC_F, SC_E, SC_9, SC_8, SC_B, SC_A },
-
- { SC_6, SC_7, SC_4, SC_5, SC_2, SC_3, SC_0, SC_1,
- SC_E, SC_F, SC_C, SC_D, SC_A, SC_B, SC_8, SC_9 },
-
- { SC_7, SC_6, SC_5, SC_4, SC_3, SC_2, SC_1, SC_0,
- SC_F, SC_E, SC_D, SC_C, SC_B, SC_A, SC_9, SC_8 },
-
- { SC_8, SC_9, SC_A, SC_B, SC_C, SC_D, SC_E, SC_F,
- SC_0, SC_1, SC_2, SC_3, SC_4, SC_5, SC_6, SC_7 },
-
- { SC_9, SC_8, SC_B, SC_A, SC_D, SC_C, SC_F, SC_E,
- SC_1, SC_0, SC_3, SC_2, SC_5, SC_4, SC_7, SC_6 },
-
- { SC_A, SC_B, SC_8, SC_9, SC_E, SC_F, SC_C, SC_D,
- SC_2, SC_3, SC_0, SC_1, SC_6, SC_7, SC_4, SC_5 },
-
- { SC_B, SC_A, SC_9, SC_8, SC_F, SC_E, SC_D, SC_C,
- SC_3, SC_2, SC_1, SC_0, SC_7, SC_6, SC_5, SC_4 },
-
- { SC_C, SC_D, SC_E, SC_F, SC_8, SC_9, SC_A, SC_B,
- SC_4, SC_5, SC_6, SC_7, SC_0, SC_1, SC_2, SC_3 },
-
- { SC_D, SC_C, SC_F, SC_E, SC_9, SC_8, SC_B, SC_A,
- SC_5, SC_4, SC_7, SC_6, SC_1, SC_0, SC_3, SC_2 },
-
- { SC_E, SC_F, SC_C, SC_D, SC_A, SC_B, SC_8, SC_9,
- SC_6, SC_7, SC_4, SC_5, SC_2, SC_3, SC_0, SC_1 },
-
- { SC_F, SC_E, SC_D, SC_C, SC_B, SC_A, SC_9, SC_8,
- SC_7, SC_6, SC_5, SC_4, SC_3, SC_2, SC_1, SC_0 }
- };
-
static char const add_table[16][16][2] = {
{ {SC_0, SC_0}, {SC_1, SC_0}, {SC_2, SC_0}, {SC_3, SC_0},
{SC_4, SC_0}, {SC_5, SC_0}, {SC_6, SC_0}, {SC_7, SC_0},
};
/** converting a digit to a binary string */
-static const char *binary_table[16] = {
+static char const *const binary_table[] = {
"0000", "0001", "0010", "0011", "0100", "0101", "0110", "0111",
"1000", "1001", "1010", "1011", "1100", "1101", "1110", "1111"
};
/*****************************************************************************
* private functions
*****************************************************************************/
-static void _fail_char(const char *str, size_t len, const char fchar, int pos,
- const char *file, int line) {
- printf("ERROR:\n");
- printf("Unexpected character '%c' in %s:%d\n", fchar, file, line);
- while (len-- && *str) printf("%c", *str++); printf("\n");
- while (--pos) printf(" "); printf("^\n");
- exit(-1);
-}
/**
* implements the bitwise NOT operation
*/
-static void _bitnot(const char *val, char *buffer) {
+static void do_bitnot(const char *val, char *buffer)
+{
int counter;
for (counter = 0; counter<calc_buffer_size; counter++)
- buffer[counter] = not_table[_val(val[counter])];
+ buffer[counter] = val[counter] ^ SC_F;
}
/**
* implements the bitwise OR operation
*/
-static void _bitor(const char *val1, const char *val2, char *buffer) {
+static void do_bitor(const char *val1, const char *val2, char *buffer)
+{
int counter;
for (counter = 0; counter<calc_buffer_size; counter++)
- buffer[counter] = or_table[_val(val1[counter])][_val(val2[counter])];
+ buffer[counter] = val1[counter] | val2[counter];
}
/**
* implements the bitwise eXclusive OR operation
*/
-static void _bitxor(const char *val1, const char *val2, char *buffer) {
+static void do_bitxor(const char *val1, const char *val2, char *buffer)
+{
int counter;
for (counter = 0; counter<calc_buffer_size; counter++)
- buffer[counter] = xor_table[_val(val1[counter])][_val(val2[counter])];
+ buffer[counter] = val1[counter] ^ val2[counter];
}
/**
* implements the bitwise AND operation
*/
-static void _bitand(const char *val1, const char *val2, char *buffer) {
+static void do_bitand(const char *val1, const char *val2, char *buffer)
+{
int counter;
for (counter = 0; counter<calc_buffer_size; counter++)
- buffer[counter] = and_table[_val(val1[counter])][_val(val2[counter])];
+ buffer[counter] = val1[counter] & val2[counter];
+}
+
+/**
+ * implements the bitwise AND not operation
+ */
+static void do_bitandnot(const char *val1, const char *val2, char *buffer)
+{
+ int counter;
+
+ for (counter = 0; counter < calc_buffer_size; ++counter)
+ buffer[counter] = val1[counter] & (SC_F ^ val2[counter]);
}
/**
* @todo This implementation is wrong, as it returns the highest bit of the buffer
* NOT the highest bit depending on the real mode
*/
-static int _sign(const char *val) {
+static int do_sign(const char *val)
+{
return (val[calc_buffer_size-1] <= SC_7) ? (1) : (-1);
}
/**
* returns non-zero if bit at position pos is set
*/
-static int _bit(const char *val, int pos) {
+static int do_bit(const char *val, int pos)
+{
int bit = pos & 3;
int nibble = pos >> 2;
/**
* Implements a fast ADD + 1
*/
-static void _inc(const char *val, char *buffer) {
+static void do_inc(const char *val, char *buffer)
+{
int counter = 0;
while (counter++ < calc_buffer_size) {
/**
* Implements a unary MINUS
*/
-static void _negate(const char *val, char *buffer) {
- _bitnot(val, buffer);
- _inc(buffer, buffer);
+static void do_negate(const char *val, char *buffer)
+{
+ do_bitnot(val, buffer);
+ do_inc(buffer, buffer);
}
/**
* @todo The implementation of carry is wrong, as it is the
* calc_buffer_size carry, not the mode depending
*/
-static void _add(const char *val1, const char *val2, char *buffer) {
+static void do_add(const char *val1, const char *val2, char *buffer)
+{
int counter;
const char *add1, *add2;
char carry = SC_0;
/**
* Implements a binary SUB
*/
-static void _sub(const char *val1, const char *val2, char *buffer) {
- char *temp_buffer = alloca(calc_buffer_size); /* intermediate buffer to hold -val2 */
+static void do_sub(const char *val1, const char *val2, char *buffer)
+{
+ char *temp_buffer = (char*) alloca(calc_buffer_size); /* intermediate buffer to hold -val2 */
- _negate(val2, temp_buffer);
- _add(val1, temp_buffer, buffer);
+ do_negate(val2, temp_buffer);
+ do_add(val1, temp_buffer, buffer);
}
/**
* Implements a binary MUL
*/
-static void _mul(const char *val1, const char *val2, char *buffer) {
+static void do_mul(const char *val1, const char *val2, char *buffer)
+{
char *temp_buffer; /* result buffer */
char *neg_val1; /* abs of val1 */
char *neg_val2; /* abs of val2 */
char sign = 0; /* marks result sign */
int c_inner, c_outer; /* loop counters */
- temp_buffer = alloca(calc_buffer_size);
- neg_val1 = alloca(calc_buffer_size);
- neg_val2 = alloca(calc_buffer_size);
+ temp_buffer = (char*) alloca(calc_buffer_size);
+ neg_val1 = (char*) alloca(calc_buffer_size);
+ neg_val2 = (char*) alloca(calc_buffer_size);
- /* init result buffer to zeroes */
+ /* init result buffer to zeros */
memset(temp_buffer, SC_0, calc_buffer_size);
/* the multiplication works only for positive values, for negative values *
* it is necessary to negate them and adjust the result accordingly */
- if (_sign(val1) == -1) {
- _negate(val1, neg_val1);
+ if (do_sign(val1) == -1) {
+ do_negate(val1, neg_val1);
val1 = neg_val1;
sign ^= 1;
}
- if (_sign(val2) == -1) {
- _negate(val2, neg_val2);
+ if (do_sign(val2) == -1) {
+ do_negate(val2, neg_val2);
val2 = neg_val2;
sign ^= 1;
}
}
if (sign)
- _negate(temp_buffer, buffer);
+ do_negate(temp_buffer, buffer);
else
memcpy(buffer, temp_buffer, calc_buffer_size);
}
/**
* Shift the buffer to left and add a 4 bit digit
*/
-static void _push(const char digit, char *buffer) {
+static void do_push(const char digit, char *buffer)
+{
int counter;
for (counter = calc_buffer_size - 2; counter >= 0; counter--) {
*
* Note: This is MOST slow
*/
-static void _divmod(const char *rDividend, const char *divisor, char *quot, char *rem) {
+static void do_divmod(const char *rDividend, const char *divisor, char *quot, char *rem)
+{
const char *dividend = rDividend;
const char *minus_divisor;
char *neg_val1;
int c_dividend; /* loop counters */
- neg_val1 = alloca(calc_buffer_size);
- neg_val2 = alloca(calc_buffer_size);
+ neg_val1 = (char*) alloca(calc_buffer_size);
+ neg_val2 = (char*) alloca(calc_buffer_size);
/* clear result buffer */
memset(quot, SC_0, calc_buffer_size);
if (sc_comp(dividend, quot) == 0)
return;
- if (_sign(dividend) == -1) {
- _negate(dividend, neg_val1);
+ if (do_sign(dividend) == -1) {
+ do_negate(dividend, neg_val1);
div_sign ^= 1;
rem_sign ^= 1;
dividend = neg_val1;
}
- _negate(divisor, neg_val2);
- if (_sign(divisor) == -1) {
+ do_negate(divisor, neg_val2);
+ if (do_sign(divisor) == -1) {
div_sign ^= 1;
minus_divisor = divisor;
divisor = neg_val2;
goto end;
case -1: /* dividend < divisor */
- memcpy(rem, rDividend, calc_buffer_size);
+ memcpy(rem, dividend, calc_buffer_size);
goto end;
default: /* unluckily division is necessary :( */
}
for (c_dividend = calc_buffer_size - 1; c_dividend >= 0; c_dividend--) {
- _push(dividend[c_dividend], rem);
- _push(SC_0, quot);
+ do_push(dividend[c_dividend], rem);
+ do_push(SC_0, quot);
if (sc_comp(rem, divisor) != -1) { /* remainder >= divisor */
/* subtract until the remainder becomes negative, this should
* be faster than comparing remainder with divisor */
- _add(rem, minus_divisor, rem);
+ do_add(rem, minus_divisor, rem);
- while (_sign(rem) == 1) {
+ while (do_sign(rem) == 1) {
quot[0] = add_table[_val(quot[0])][SC_1][0];
- _add(rem, minus_divisor, rem);
+ do_add(rem, minus_divisor, rem);
}
/* subtracted one too much */
- _add(rem, divisor, rem);
+ do_add(rem, divisor, rem);
}
}
end:
carry_flag = !sc_is_zero(rem);
if (div_sign)
- _negate(quot, quot);
+ do_negate(quot, quot);
if (rem_sign)
- _negate(rem, rem);
+ do_negate(rem, rem);
}
/**
*
* @todo Assertions seems to be wrong
*/
-static void _shl(const char *val1, char *buffer, long offset, int radius, unsigned is_signed) {
+static void do_shl(const char *val1, char *buffer, long shift_cnt, int bitsize, unsigned is_signed)
+{
const char *shl;
char shift;
char carry = SC_0;
int counter;
int bitoffset = 0;
- assert((offset >= 0) || (0 && "negative leftshift"));
- assert(((_sign(val1) != -1) || is_signed) || (0 && "unsigned mode and negative value"));
- assert(((!_bitisset(val1[(radius-1)/4], (radius-1)%4)) || !is_signed || (_sign(val1) == -1)) || (0 && "value is positive, should be negative"));
- assert(((_bitisset(val1[(radius-1)/4], (radius-1)%4)) || !is_signed || (_sign(val1) == 1)) || (0 && "value is negative, should be positive"));
+ assert((shift_cnt >= 0) || (0 && "negative leftshift"));
+ assert(((do_sign(val1) != -1) || is_signed) || (0 && "unsigned mode and negative value"));
+ assert(((!_bitisset(val1[(bitsize-1)/4], (bitsize-1)%4)) || !is_signed || (do_sign(val1) == -1)) || (0 && "value is positive, should be negative"));
+ assert(((_bitisset(val1[(bitsize-1)/4], (bitsize-1)%4)) || !is_signed || (do_sign(val1) == 1)) || (0 && "value is negative, should be positive"));
/* if shifting far enough the result is zero */
- if (offset >= radius) {
+ if (shift_cnt >= bitsize) {
memset(buffer, SC_0, calc_buffer_size);
return;
}
- shift = shift_table[_val(offset%4)]; /* this is 2 ** (offset % 4) */
- offset = offset / 4;
+ shift = SHIFT(shift_cnt % 4); /* this is 2 ** (offset % 4) */
+ shift_cnt = shift_cnt / 4;
/* shift the single digits some bytes (offset) and some bits (table)
* to the left */
- for (counter = 0; counter < radius/4 - offset; counter++) {
+ for (counter = 0; counter < bitsize/4 - shift_cnt; counter++) {
shl = mul_table[_val(val1[counter])][_val(shift)];
- buffer[counter + offset] = or_table[_val(shl[0])][_val(carry)];
+ buffer[counter + shift_cnt] = shl[0] | carry;
carry = shl[1];
}
- if (radius%4 > 0) {
+ if (bitsize%4 > 0) {
shl = mul_table[_val(val1[counter])][_val(shift)];
- buffer[counter + offset] = or_table[_val(shl[0])][_val(carry)];
+ buffer[counter + shift_cnt] = shl[0] | carry;
bitoffset = counter;
} else {
bitoffset = counter - 1;
}
/* fill with zeroes */
- for (counter = 0; counter < offset; counter++)
+ for (counter = 0; counter < shift_cnt; counter++)
buffer[counter] = SC_0;
/* if the mode was signed, change sign when the mode's msb is now 1 */
- offset = bitoffset + offset;
- bitoffset = (radius-1) % 4;
- if (is_signed && _bitisset(buffer[offset], bitoffset)) {
+ shift_cnt = bitoffset + shift_cnt;
+ bitoffset = (bitsize-1) % 4;
+ if (is_signed && _bitisset(buffer[shift_cnt], bitoffset)) {
/* this sets the upper bits of the leftmost digit */
- buffer[offset] = or_table[_val(buffer[offset])][_val(min_digit[bitoffset])];
- for (counter = offset+1; counter < calc_buffer_size; counter++) {
+ buffer[shift_cnt] |= min_digit[bitoffset];
+ for (counter = shift_cnt+1; counter < calc_buffer_size; counter++) {
buffer[counter] = SC_F;
}
- } else if (is_signed && !_bitisset(buffer[offset], bitoffset)) {
+ } else if (is_signed && !_bitisset(buffer[shift_cnt], bitoffset)) {
/* this clears the upper bits of the leftmost digit */
- buffer[offset] = and_table[_val(buffer[offset])][_val(max_digit[bitoffset])];
- for (counter = offset+1; counter < calc_buffer_size; counter++) {
+ buffer[shift_cnt] &= max_digit[bitoffset];
+ for (counter = shift_cnt+1; counter < calc_buffer_size; counter++) {
buffer[counter] = SC_0;
}
}
* Implements a Shift Right, which can either preserve the sign bit
* or not.
*
+ * @param bitsize bitsize of the value to be shifted
+ *
* @todo Assertions seems to be wrong
*/
-static void _shr(const char *val1, char *buffer, long offset, int radius, unsigned is_signed, int signed_shift) {
+static void do_shr(const char *val1, char *buffer, long shift_cnt, int bitsize, unsigned is_signed, int signed_shift)
+{
const char *shrs;
char sign;
char msd;
- int shift;
+ int shift_mod, shift_nib;
int counter;
int bitoffset = 0;
- assert((offset >= 0) || (0 && "negative rightshift"));
- assert(((!_bitisset(val1[(radius-1)/4], (radius-1)%4)) || !is_signed || (_sign(val1) == -1)) || (0 && "value is positive, should be negative"));
- assert(((_bitisset(val1[(radius-1)/4], (radius-1)%4)) || !is_signed || (_sign(val1) == 1)) || (0 && "value is negative, should be positive"));
+ assert((shift_cnt >= 0) || (0 && "negative rightshift"));
+ assert(((!_bitisset(val1[(bitsize-1)/4], (bitsize-1)%4)) || !is_signed || (do_sign(val1) == -1)) || (0 && "value is positive, should be negative"));
+ assert(((_bitisset(val1[(bitsize-1)/4], (bitsize-1)%4)) || !is_signed || (do_sign(val1) == 1)) || (0 && "value is negative, should be positive"));
- sign = ((signed_shift) && (_sign(val1) == -1))?(SC_F):(SC_0);
+ sign = signed_shift && do_bit(val1, bitsize - 1) ? SC_F : SC_0;
/* if shifting far enough the result is either 0 or -1 */
- if (offset >= radius) {
+ if (shift_cnt >= bitsize) {
if (!sc_is_zero(val1)) {
carry_flag = 1;
}
return;
}
- shift = offset % 4;
- offset = offset / 4;
+ shift_mod = shift_cnt & 3;
+ shift_nib = shift_cnt >> 2;
/* check if any bits are lost, and set carry_flag if so */
- for (counter = 0; counter < offset; counter++) {
+ for (counter = 0; counter < shift_nib; ++counter) {
if (val1[counter] != 0) {
carry_flag = 1;
break;
}
}
- if ((_val(val1[counter]) & ((1<<shift)-1)) != 0) {
+ if ((_val(val1[counter]) & ((1<<shift_mod)-1)) != 0)
carry_flag = 1;
- }
+
/* shift digits to the right with offset, carry and all */
- counter = 0;
- if (radius/4 - offset > 0) {
- buffer[counter] = shrs_table[_val(val1[offset])][shift][0];
- counter = 1;
- }
- for (; counter < radius/4 - offset; counter++) {
- shrs = shrs_table[_val(val1[counter + offset])][shift];
- buffer[counter] = shrs[0];
- buffer[counter-1] = or_table[_val(buffer[counter-1])][_val(shrs[1])];
+ buffer[0] = shrs_table[_val(val1[shift_nib])][shift_mod][0];
+ for (counter = 1; counter < ((bitsize + 3) >> 2) - shift_nib; counter++) {
+ shrs = shrs_table[_val(val1[counter + shift_nib])][shift_mod];
+ buffer[counter] = shrs[0];
+ buffer[counter - 1] |= shrs[1];
}
/* the last digit is special in regard of signed/unsigned shift */
- bitoffset = radius%4;
- msd = (radius/4<calc_buffer_size)?(val1[radius/4]):(sign); /* most significant digit */
+ bitoffset = bitsize & 3;
+ msd = sign; /* most significant digit */
/* remove sign bits if mode was signed and this is an unsigned shift */
if (!signed_shift && is_signed) {
- msd = and_table[_val(msd)][_val(max_digit[bitoffset])];
+ msd &= max_digit[bitoffset];
}
- shrs = shrs_table[_val(msd)][shift];
+ shrs = shrs_table[_val(msd)][shift_mod];
/* signed shift and signed mode and negative value means all bits to the left are set */
- if (signed_shift && is_signed && (_sign(val1) == -1)) {
- buffer[counter] = or_table[_val(shrs[0])][_val(min_digit[bitoffset])];
+ if (signed_shift && sign == SC_F) {
+ buffer[counter] = shrs[0] | min_digit[bitoffset];
} else {
buffer[counter] = shrs[0];
}
- if (counter > 0) buffer[counter - 1] = or_table[_val(buffer[counter-1])][_val(shrs[1])];
+ if (counter > 0)
+ buffer[counter - 1] |= shrs[1];
/* fill with SC_F or SC_0 depending on sign */
for (counter++; counter < calc_buffer_size; counter++) {
}
/**
- * Implements a Rotate Right.
+ * Implements a Rotate Left.
* positive: low-order -> high order, negative other direction
*/
-static void _rot(const char *val1, char *buffer, long offset, int radius, unsigned is_signed) {
+static void do_rotl(const char *val1, char *buffer, long offset, int radius, unsigned is_signed)
+{
char *temp1, *temp2;
- temp1 = alloca(calc_buffer_size);
- temp2 = alloca(calc_buffer_size);
+ temp1 = (char*) alloca(calc_buffer_size);
+ temp2 = (char*) alloca(calc_buffer_size);
offset = offset % radius;
return;
}
- _shl(val1, temp1, offset, radius, is_signed);
- _shr(val1, temp2, radius - offset, radius, is_signed, 0);
- _bitor(temp1, temp2, buffer);
+ do_shl(val1, temp1, offset, radius, is_signed);
+ do_shr(val1, temp2, radius - offset, radius, is_signed, 0);
+ do_bitor(temp1, temp2, buffer);
carry_flag = 0; /* set by shr, but due to rot this is false */
}
/*****************************************************************************
* public functions, declared in strcalc.h
*****************************************************************************/
-const void *sc_get_buffer(void) {
+const void *sc_get_buffer(void)
+{
return (void*)calc_buffer;
}
-int sc_get_buffer_length(void) {
+int sc_get_buffer_length(void)
+{
return calc_buffer_size;
}
/**
* Do sign extension if the mode is signed, otherwise to zero extension.
*/
-void sign_extend(void *buffer, ir_mode *mode) {
- char *calc_buffer = buffer;
+void sign_extend(void *buffer, ir_mode *mode)
+{
+ char *calc_buffer = (char*) buffer;
int bits = get_mode_size_bits(mode) - 1;
int nibble = bits >> 2;
int max = max_digit[bits & 3];
for (i = nibble + 1; i < calc_buffer_size; ++i)
calc_buffer[i] = SC_F;
- calc_buffer[nibble] = or_table[(int)calc_buffer[nibble]][(int)sex_digit[bits & 3]];
+ calc_buffer[nibble] |= sex_digit[bits & 3];
} else {
/* set all bits to zero */
for (i = nibble + 1; i < calc_buffer_size; ++i)
calc_buffer[i] = SC_0;
- calc_buffer[nibble] = and_table[(int)calc_buffer[nibble]][(int)zex_digit[bits & 3]];
+ calc_buffer[nibble] &= zex_digit[bits & 3];
}
} else {
/* do zero extension */
for (i = nibble + 1; i < calc_buffer_size; ++i)
calc_buffer[i] = SC_0;
- calc_buffer[nibble] = and_table[(int)calc_buffer[nibble]][(int)zex_digit[bits & 3]];
+ calc_buffer[nibble] &= zex_digit[bits & 3];
}
}
-/* FIXME doesn't check for overflows */
-void sc_val_from_str(const char *str, unsigned int len, void *buffer, ir_mode *mode) {
- const char *orig_str = str;
- unsigned int orig_len = len;
+/* we assume that '0'-'9', 'a'-'z' and 'A'-'Z' are a range.
+ * The C-standard does theoretically allow otherwise. */
+static inline void check_ascii(void)
+{
+ /* C standard guarantees that '0'-'9' is a range */
+ assert('b'-'a' == 1
+ && 'c'-'a' == 2
+ && 'd'-'a' == 3
+ && 'e'-'a' == 4
+ && 'f'-'a' == 5);
+ assert('B'-'A' == 1
+ && 'C'-'A' == 2
+ && 'D'-'A' == 3
+ && 'E'-'A' == 4
+ && 'F'-'A' == 5);
+}
- char sign = 0;
- char *base, *val;
+int sc_val_from_str(char sign, unsigned base, const char *str,
+ size_t len, void *buffer)
+{
+ char *sc_base, *val;
- base = alloca(calc_buffer_size);
- val = alloca(calc_buffer_size);
+ assert(sign == -1 || sign == 1);
+ assert(str != NULL);
+ assert(len > 0);
+ check_ascii();
- /* verify valid pointers (not null) */
- assert(str);
- /* a string no characters long is an error */
- assert(len);
+ assert(base > 1 && base <= 16);
+ sc_base = (char*) alloca(calc_buffer_size);
+ sc_val_from_ulong(base, sc_base);
- if (buffer == NULL) buffer = calc_buffer;
+ val = (char*) alloca(calc_buffer_size);
+ if (buffer == NULL)
+ buffer = calc_buffer;
CLEAR_BUFFER(buffer);
- CLEAR_BUFFER(base);
CLEAR_BUFFER(val);
- /* strip leading spaces */
- while ((len > 0) && (*str == ' ')) { len--; str++; }
-
- /* if the first two characters are 0x or 0X -> hex
- * if the first is a 0 -> oct
- * else dec, strip leading -/+ and remember sign
- *
- * only a + or - sign is no number resulting in an error */
- if (len >= 2) {
- switch (str[0]) {
- case '0':
- if (str[1] == 'x' || str[1] == 'X') { /* hex */
- str += 2;
- len -= 2;
- base[1] = SC_1; base[0] = SC_0;
- } else { /* oct */
- str += 1;
- len -= 1;
- base[1] = SC_0; base[0] = SC_8;
- }
- break;
-
- case '+':
- str += 1;
- len -= 1;
- base[1] = SC_0; base[0] = SC_A;
- break;
-
- case '-':
- str += 1;
- len -= 1;
- sign = 1;
- base[1] = SC_0; base[0] = SC_A;
- break;
-
- default: /* dec, else would have begun with 0x or 0 */
- base[1] = SC_0; base[0] = SC_A;
- }
- } else { /* dec, else would have begun with 0x or 0 */
- base[1] = SC_0; base[0] = SC_A;
- }
-
/* BEGIN string evaluation, from left to right */
while (len > 0) {
- switch (*str) {
- case 'f':
- case 'e':
- case 'd':
- case 'c':
- case 'b':
- case 'a':
- if (base[0] > SC_9 || base[1] > SC_0) { /* (base > 10) */
- val[0] = _digit((*str)-'a'+10);
- }
- else
- fail_char(orig_str, orig_len, *str, str-orig_str+1);
- break;
-
- case 'F':
- case 'E':
- case 'D':
- case 'C':
- case 'B':
- case 'A':
- if (base[0] > SC_9 || base[1] > SC_0) { /* (base > 10) */
- val[0] = _digit((*str)-'A'+10);
- }
- else
- fail_char(orig_str, orig_len, *str, str-orig_str+1);
- break;
-
- case '9':
- case '8':
- if (base[0] > SC_7 || base[1] > SC_0) { /* (base > 8) */
- val[0] = _digit((*str)-'0');
- }
- else
- fail_char(orig_str, orig_len, *str, str-orig_str+1);
- break;
-
- case '7':
- case '6':
- case '5':
- case '4':
- case '3':
- case '2':
- case '1':
- case '0':
- val[0] = _digit((*str)-'0');
- break;
+ char c = *str;
+ unsigned v;
+ if (c >= '0' && c <= '9')
+ v = c - '0';
+ else if (c >= 'A' && c <= 'F')
+ v = c - 'A' + 10;
+ else if (c >= 'a' && c <= 'f')
+ v = c - 'a' + 10;
+ else
+ return 0;
- default:
- fail_char(orig_str, orig_len, *str, str-orig_str+1);
- } /* switch(*str) */
+ if (v >= base)
+ return 0;
+ val[0] = v;
/* Radix conversion from base b to base B:
* (UnUn-1...U1U0)b == ((((Un*b + Un-1)*b + ...)*b + U1)*b + U0)B */
- _mul(base, calc_buffer, calc_buffer); /* multiply current value with base */
- _add(val, calc_buffer, calc_buffer); /* add next digit to current value */
+ /* multiply current value with base */
+ do_mul(sc_base, (const char*) buffer, (char*) buffer);
+ /* add next digit to current value */
+ do_add(val, (const char*) buffer, (char*) buffer);
/* get ready for the next letter */
str++;
len--;
- } /* while (len > 0 ) */
+ }
- if (sign)
- _negate(calc_buffer, calc_buffer);
+ if (sign < 0)
+ do_negate((const char*) buffer, (char*) buffer);
- /* beware: even if hex numbers have no sign, we need sign extension here */
- sign_extend(calc_buffer, mode);
+ return 1;
}
-void sc_val_from_long(long value, void *buffer) {
+void sc_val_from_long(long value, void *buffer)
+{
char *pos;
char sign, is_minlong;
if (buffer == NULL) buffer = calc_buffer;
- pos = buffer;
+ pos = (char*) buffer;
sign = (value < 0);
is_minlong = value == LONG_MIN;
if (sign) {
if (is_minlong)
- _inc(buffer, buffer);
+ do_inc((const char*) buffer, (char*) buffer);
- _negate(buffer, buffer);
+ do_negate((const char*) buffer, (char*) buffer);
}
}
-void sc_val_from_ulong(unsigned long value, void *buffer) {
+void sc_val_from_ulong(unsigned long value, void *buffer)
+{
unsigned char *pos;
if (buffer == NULL) buffer = calc_buffer;
- pos = buffer;
+ pos = (unsigned char*) buffer;
while (pos < (unsigned char *)buffer + calc_buffer_size) {
*pos++ = (unsigned char)_digit(value & 0xf);
}
}
-long sc_val_to_long(const void *val) {
+long sc_val_to_long(const void *val)
+{
int i;
long l = 0;
return l;
}
-void sc_min_from_bits(unsigned int num_bits, unsigned int sign, void *buffer) {
+void sc_min_from_bits(unsigned int num_bits, unsigned int sign, void *buffer)
+{
char *pos;
int i, bits;
if (!sign) return; /* unsigned means minimum is 0(zero) */
- pos = buffer;
+ pos = (char*) buffer;
bits = num_bits - 1;
for (i = 0; i < bits/4; i++)
*pos++ = SC_F;
}
-void sc_max_from_bits(unsigned int num_bits, unsigned int sign, void *buffer) {
+void sc_max_from_bits(unsigned int num_bits, unsigned int sign, void *buffer)
+{
char* pos;
int i, bits;
if (buffer == NULL) buffer = calc_buffer;
CLEAR_BUFFER(buffer);
- pos = buffer;
+ pos = (char*) buffer;
bits = num_bits - sign;
for (i = 0; i < bits/4; i++)
*pos++ = SC_0;
}
-int sc_comp(const void* value1, const void* value2) {
+void sc_truncate(unsigned int num_bits, void *buffer)
+{
+ char *cbuffer = (char*) buffer;
+ char *pos = cbuffer + (num_bits / 4);
+ char *end = cbuffer + calc_buffer_size;
+
+ assert(pos < end);
+
+ switch (num_bits % 4) {
+ case 0: /* nothing to do */ break;
+ case 1: *pos++ &= SC_1; break;
+ case 2: *pos++ &= SC_3; break;
+ case 3: *pos++ &= SC_7; break;
+ }
+
+ for ( ; pos < end; ++pos)
+ *pos = SC_0;
+}
+
+int sc_comp(const void* value1, const void* value2)
+{
int counter = calc_buffer_size - 1;
const char *val1 = (const char *)value1;
const char *val2 = (const char *)value2;
/* compare signs first:
* the loop below can only compare values of the same sign! */
- if (_sign(val1) != _sign(val2))
- return (_sign(val1) == 1)?(1):(-1);
+ if (do_sign(val1) != do_sign(val2))
+ return (do_sign(val1) == 1)?(1):(-1);
/* loop until two digits differ, the values are equal if there
* are no such two digits */
return (val1[counter] > val2[counter]) ? (1) : (-1);
}
-int sc_get_highest_set_bit(const void *value) {
+int sc_get_highest_set_bit(const void *value)
+{
const char *val = (const char*)value;
int high, counter;
return high;
}
-int sc_get_lowest_set_bit(const void *value) {
+int sc_get_lowest_set_bit(const void *value)
+{
const char *val = (const char*)value;
int low, counter;
- char sign;
- sign = (_sign(val)==1)?(SC_0):(SC_F);
low = 0;
-
for (counter = 0; counter < calc_buffer_size; counter++) {
- if (val[counter] == SC_0)
+ switch (val[counter]) {
+ case SC_1:
+ case SC_3:
+ case SC_5:
+ case SC_7:
+ case SC_9:
+ case SC_B:
+ case SC_D:
+ case SC_F:
+ return low;
+ case SC_2:
+ case SC_6:
+ case SC_A:
+ case SC_E:
+ return low + 1;
+ case SC_4:
+ case SC_C:
+ return low + 2;
+ case SC_8:
+ return low + 3;
+ default:
low += 4;
- else {
- if (val[counter] < SC_2) return low;
- else if (val[counter] < SC_4) return low + 1;
- else if (val[counter] < SC_8) return low + 2;
- else return low + 3;
}
}
return -1;
}
-int sc_is_zero(const void *value) {
+int sc_get_bit_at(const void *value, unsigned pos)
+{
+ const char *val = (const char*) value;
+ unsigned nibble = pos >> 2;
+
+ return (val[nibble] & SHIFT(pos & 3)) != SC_0;
+}
+
+void sc_set_bit_at(void *value, unsigned pos)
+{
+ char *val = (char*) value;
+ unsigned nibble = pos >> 2;
+
+ val[nibble] |= SHIFT(pos & 3);
+}
+
+int sc_is_zero(const void *value)
+{
const char* val = (const char *)value;
int counter;
return 1;
}
-int sc_is_negative(const void *value) {
- return _sign(value) == -1;
+int sc_is_negative(const void *value)
+{
+ return do_sign((const char*) value) == -1;
}
-int sc_had_carry(void) {
+int sc_had_carry(void)
+{
return carry_flag;
}
-unsigned char sc_sub_bits(const void *value, int len, unsigned byte_ofs) {
+unsigned char sc_sub_bits(const void *value, int len, unsigned byte_ofs)
+{
const char *val = (const char *)value;
int nibble_ofs = 2 * byte_ofs;
unsigned char res;
/* the current scheme uses one byte to store a nibble */
- if (nibble_ofs >= len)
+ if (4 * nibble_ofs >= len)
return 0;
res = _val(val[nibble_ofs]);
- if (len > nibble_ofs + 1)
+ if (len > 4 * (nibble_ofs + 1))
res |= _val(val[nibble_ofs + 1]) << 4;
+ /* kick bits outsize */
+ if (len - 8 * byte_ofs < 8) {
+ res &= (1 << (len - 8 * byte_ofs)) - 1;
+ }
return res;
}
* convert to a string
* FIXME: Doesn't check buffer bounds
*/
-const char *sc_print(const void *value, unsigned bits, enum base_t base, int signed_mode) {
+const char *sc_print(const void *value, unsigned bits, enum base_t base, int signed_mode)
+{
static const char big_digits[] = "0123456789ABCDEF";
static const char small_digits[] = "0123456789abcdef";
char *base_val, *div1_res, *div2_res, *rem_res;
- int counter, nibbles, i, sign;
+ int counter, nibbles, i, sign, mask;
char x;
const char *val = (const char *)value;
char *pos;
const char *digits = small_digits;
- base_val = alloca(calc_buffer_size);
- div1_res = alloca(calc_buffer_size);
- div2_res = alloca(calc_buffer_size);
- rem_res = alloca(calc_buffer_size);
+ base_val = (char*) alloca(calc_buffer_size);
+ div1_res = (char*) alloca(calc_buffer_size);
+ div2_res = (char*) alloca(calc_buffer_size);
+ rem_res = (char*) alloca(calc_buffer_size);
pos = output_buffer + bit_pattern_size;
*(--pos) = '\0';
/* last nibble must be masked */
if (bits & 3) {
- x = and_table[_val(val[++counter])][bits & 3];
+ mask = zex_digit[(bits & 3) - 1];
+ x = val[counter++] & mask;
*(--pos) = digits[_val(x)];
}
/* last nibble must be masked */
if (bits & 3) {
- x = and_table[_val(val[++counter])][bits & 3];
+ mask = zex_digit[(bits & 3) - 1];
+ x = val[counter++] & mask;
pos -= 4;
p = binary_table[_val(x)];
sign = 0;
if (signed_mode && base == SC_DEC) {
/* check for negative values */
- if (_bit(val, bits - 1)) {
- _negate(val, div2_res);
+ if (do_bit(val, bits - 1)) {
+ do_negate(val, div2_res);
sign = 1;
p = div2_res;
}
/* last nibble must be masked */
if (bits & 3) {
+ mask = zex_digit[(bits & 3) - 1];
+ div1_res[counter] = p[counter] & mask;
++counter;
-
- div1_res[counter] = and_table[_val(p[counter])][bits & 3];
}
m = div1_res;
n = div2_res;
for (;;) {
- _divmod(m, base_val, n, rem_res);
+ do_divmod(m, base_val, n, rem_res);
t = m;
m = n;
n = t;
break;
default:
- printf("%i\n", base);
- assert(0);
- return NULL;
+ panic("Unsupported base %d", base);
}
return pos;
}
-void init_strcalc(int precision) {
+void init_strcalc(int precision)
+{
if (calc_buffer == NULL) {
if (precision <= 0) precision = SC_DEFAULT_PRECISION;
calc_buffer_size = (precision / 2);
max_value_size = (precision / 4);
- calc_buffer = xmalloc(calc_buffer_size+1 * sizeof(char));
- output_buffer = xmalloc(bit_pattern_size+1 * sizeof(char));
+ calc_buffer = XMALLOCN(char, calc_buffer_size + 1);
+ output_buffer = XMALLOCN(char, bit_pattern_size + 1);
DEBUGPRINTF(("init strcalc: \n\tPRECISION: %d\n\tCALC_BUFFER_SIZE = %d\n\tMAX_VALUE_SIZE = %d\n\tbuffer pointer: %p\n", precision, calc_buffer_size, max_value_size, calc_buffer));
}
}
-void finish_strcalc(void) {
+void finish_strcalc(void)
+{
free(calc_buffer); calc_buffer = NULL;
free(output_buffer); output_buffer = NULL;
}
-int sc_get_precision(void) {
+int sc_get_precision(void)
+{
return bit_pattern_size;
}
-void sc_add(const void *value1, const void *value2, void *buffer) {
+void sc_add(const void *value1, const void *value2, void *buffer)
+{
CLEAR_BUFFER(calc_buffer);
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("%s + ", sc_print_hex(value1)));
DEBUGPRINTF_COMPUTATION(("%s -> ", sc_print_hex(value2)));
- _add(value1, value2, calc_buffer);
+ do_add((const char*) value1, (const char*) value2, (char*) calc_buffer);
DEBUGPRINTF_COMPUTATION(("%s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_sub(const void *value1, const void *value2, void *buffer) {
+void sc_sub(const void *value1, const void *value2, void *buffer)
+{
CLEAR_BUFFER(calc_buffer);
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("%s - ", sc_print_hex(value1)));
DEBUGPRINTF_COMPUTATION(("%s -> ", sc_print_hex(value2)));
- _sub(value1, value2, calc_buffer);
+ do_sub((const char*) value1, (const char*) value2, calc_buffer);
DEBUGPRINTF_COMPUTATION(("%s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_neg(const void *value1, void *buffer) {
- CLEAR_BUFFER(calc_buffer);
+void sc_neg(const void *value1, void *buffer)
+{
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("- %s ->", sc_print_hex(value1)));
- _negate(value1, calc_buffer);
+ do_negate((const char*) value1, calc_buffer);
DEBUGPRINTF_COMPUTATION(("%s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_and(const void *value1, const void *value2, void *buffer) {
+void sc_and(const void *value1, const void *value2, void *buffer)
+{
CLEAR_BUFFER(calc_buffer);
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("%s & ", sc_print_hex(value1)));
DEBUGPRINTF_COMPUTATION(("%s -> ", sc_print_hex(value2)));
- _bitand(value1, value2, calc_buffer);
+ do_bitand((const char*) value1, (const char*) value2, calc_buffer);
DEBUGPRINTF_COMPUTATION(("%s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_or(const void *value1, const void *value2, void *buffer) {
+void sc_andnot(const void *value1, const void *value2, void *buffer)
+{
+ CLEAR_BUFFER(calc_buffer);
+ carry_flag = 0;
+
+ DEBUGPRINTF_COMPUTATION(("%s & ", sc_print_hex(value1)));
+ DEBUGPRINTF_COMPUTATION(("~%s -> ", sc_print_hex(value2)));
+
+ do_bitandnot((const char*) value1, (const char*) value2, calc_buffer);
+
+ DEBUGPRINTF_COMPUTATION(("%s\n", sc_print_hex(calc_buffer)));
+
+ if (buffer != NULL && buffer != calc_buffer) {
+ memcpy(buffer, calc_buffer, calc_buffer_size);
+ }
+}
+
+void sc_or(const void *value1, const void *value2, void *buffer)
+{
CLEAR_BUFFER(calc_buffer);
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("%s | ", sc_print_hex(value1)));
DEBUGPRINTF_COMPUTATION(("%s -> ", sc_print_hex(value2)));
- _bitor(value1, value2, calc_buffer);
+ do_bitor((const char*) value1, (const char*) value2, calc_buffer);
DEBUGPRINTF_COMPUTATION(("%s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_xor(const void *value1, const void *value2, void *buffer) {
+void sc_xor(const void *value1, const void *value2, void *buffer)
+{
CLEAR_BUFFER(calc_buffer);
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("%s ^ ", sc_print_hex(value1)));
DEBUGPRINTF_COMPUTATION(("%s -> ", sc_print_hex(value2)));
- _bitxor(value1, value2, calc_buffer);
+ do_bitxor((const char*) value1, (const char*) value2, calc_buffer);
DEBUGPRINTF_COMPUTATION(("%s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_not(const void *value1, void *buffer) {
+void sc_not(const void *value1, void *buffer)
+{
CLEAR_BUFFER(calc_buffer);
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("~ %s ->", sc_print_hex(value1)));
- _bitnot(value1, calc_buffer);
+ do_bitnot((const char*) value1, calc_buffer);
DEBUGPRINTF_COMPUTATION(("%s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_mul(const void *value1, const void *value2, void *buffer) {
+void sc_mul(const void *value1, const void *value2, void *buffer)
+{
CLEAR_BUFFER(calc_buffer);
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("%s * ", sc_print_hex(value1)));
DEBUGPRINTF_COMPUTATION(("%s -> ", sc_print_hex(value2)));
- _mul(value1, value2, calc_buffer);
+ do_mul((const char*) value1, (const char*) value2, calc_buffer);
DEBUGPRINTF_COMPUTATION(("%s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_div(const void *value1, const void *value2, void *buffer) {
+void sc_div(const void *value1, const void *value2, void *buffer)
+{
/* temp buffer holding unused result of divmod */
- char *unused_res = alloca(calc_buffer_size);
+ char *unused_res = (char*) alloca(calc_buffer_size);
CLEAR_BUFFER(calc_buffer);
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("%s / ", sc_print_hex(value1)));
DEBUGPRINTF_COMPUTATION(("%s -> ", sc_print_hex(value2)));
- _divmod(value1, value2, calc_buffer, unused_res);
+ do_divmod((const char*) value1, (const char*) value2, calc_buffer, unused_res);
DEBUGPRINTF_COMPUTATION(("%s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_mod(const void *value1, const void *value2, void *buffer) {
+void sc_mod(const void *value1, const void *value2, void *buffer)
+{
/* temp buffer holding unused result of divmod */
- char *unused_res = alloca(calc_buffer_size);
+ char *unused_res = (char*) alloca(calc_buffer_size);
CLEAR_BUFFER(calc_buffer);
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("%s %% ", sc_print_hex(value1)));
DEBUGPRINTF_COMPUTATION(("%s -> ", sc_print_hex(value2)));
- _divmod(value1, value2, unused_res, calc_buffer);
+ do_divmod((const char*) value1, (const char*) value2, unused_res, calc_buffer);
DEBUGPRINTF_COMPUTATION(("%s\n", sc_print_hex(calc_buffer)));
}
}
+void sc_divmod(const void *value1, const void *value2, void *div_buffer, void *mod_buffer)
+{
+ CLEAR_BUFFER(calc_buffer);
+ carry_flag = 0;
+
+ DEBUGPRINTF_COMPUTATION(("%s %% ", sc_print_hex(value1)));
+ DEBUGPRINTF_COMPUTATION(("%s -> ", sc_print_hex(value2)));
+
+ do_divmod((const char*) value1, (const char*) value2, (char*) div_buffer, (char*) mod_buffer);
+
+ DEBUGPRINTF_COMPUTATION(("%s:%s\n", sc_print_hex(div_buffer), sc_print_hex(mod_buffer)));
+}
-void sc_shl(const void *val1, const void *val2, int radius, int sign, void *buffer) {
- long offset = sc_val_to_long(val2);
+void sc_shlI(const void *val1, long shift_cnt, int bitsize, int sign, void *buffer)
+{
carry_flag = 0;
- DEBUGPRINTF_COMPUTATION(("%s << %ld ", sc_print_hex(value1), offset));
- _shl(val1, calc_buffer, offset, radius, sign);
+ DEBUGPRINTF_COMPUTATION(("%s << %ld ", sc_print_hex(value1), shift_cnt));
+ do_shl((const char*) val1, calc_buffer, shift_cnt, bitsize, sign);
DEBUGPRINTF_COMPUTATION(("-> %s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_shr(const void *val1, const void *val2, int radius, int sign, void *buffer) {
+void sc_shl(const void *val1, const void *val2, int bitsize, int sign, void *buffer)
+{
long offset = sc_val_to_long(val2);
+ sc_shlI(val1, offset, bitsize, sign, buffer);
+}
+
+void sc_shrI(const void *val1, long shift_cnt, int bitsize, int sign, void *buffer)
+{
carry_flag = 0;
- DEBUGPRINTF_COMPUTATION(("%s >>u %ld ", sc_print_hex(value1), offset));
- _shr(val1, calc_buffer, offset, radius, sign, 0);
+ DEBUGPRINTF_COMPUTATION(("%s >>u %ld ", sc_print_hex(value1), shift_cnt));
+ do_shr((const char*) val1, calc_buffer, shift_cnt, bitsize, sign, 0);
DEBUGPRINTF_COMPUTATION(("-> %s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_shrs(const void *val1, const void *val2, int radius, int sign, void *buffer) {
+void sc_shr(const void *val1, const void *val2, int bitsize, int sign, void *buffer)
+{
+ long shift_cnt = sc_val_to_long(val2);
+
+ sc_shrI(val1, shift_cnt, bitsize, sign, buffer);
+}
+
+void sc_shrs(const void *val1, const void *val2, int bitsize, int sign, void *buffer)
+{
long offset = sc_val_to_long(val2);
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("%s >>s %ld ", sc_print_hex(value1), offset));
- _shr(val1, calc_buffer, offset, radius, sign, 1);
+ do_shr((const char*) val1, calc_buffer, offset, bitsize, sign, 1);
DEBUGPRINTF_COMPUTATION(("-> %s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_rot(const void *val1, const void *val2, int radius, int sign, void *buffer) {
+void sc_rotl(const void *val1, const void *val2, int bitsize, int sign, void *buffer)
+{
long offset = sc_val_to_long(val2);
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("%s <<>> %ld ", sc_print_hex(value1), offset));
- _rot(val1, calc_buffer, offset, radius, sign);
+ do_rotl((const char*) val1, calc_buffer, offset, bitsize, sign);
DEBUGPRINTF_COMPUTATION(("-> %s\n", sc_print_hex(calc_buffer)));
memmove(buffer, calc_buffer, calc_buffer_size);
}
}
+
+void sc_zero(void *buffer)
+{
+ if (buffer == NULL)
+ buffer = calc_buffer;
+ CLEAR_BUFFER(buffer);
+ carry_flag = 0;
+}